Contribution of shape resonance and Pt-H EXAFS in the Pt L-2,L-3 X-ray absorption edges of supported Pt particles: Application and consequences for catalyst characterization
De. Ramaker et al., Contribution of shape resonance and Pt-H EXAFS in the Pt L-2,L-3 X-ray absorption edges of supported Pt particles: Application and consequences for catalyst characterization, PCCP PHYS C, 1(9), 1999, pp. 2293-2302
The electronic and geometric effects induced by hydrogen chemisorption on s
mall platinum particles supported on high surface-area saponite clay and ze
olite LTL were studied by near edge X-ray absorption fine structure (XAFS)
spectroscopy. A new subtraction procedure was developed to separate the ele
ctronic from geometric effects. A significant Pt-H extended X-ray absorptio
n fine structure (EXAFS) scattering (structural effect) was found for energ
y values between 0 and 20 eV. In addition, the Pt-H antibonding state (elec
tronic effect) was found to produce a shape-resonance and was isolated from
the near edge of the L-3 X-ray absorption spectrum. Moreover, for Pt/LTL t
he shape and energy of the shape-resonance was found to strongly depend on
the acidity/alkalinity of the support material, implying a direct influence
of the support on the electronic properties of the platinum particles. The
results of the study of the resonance state and the Pt-H EXAFS scattering
demonstrate the potential of these techniques for characterization of hydro
gen chemisorption, metal-promoter, and metal-support effects in catalysis r
esearch.